Numerical simulation of heat transfer and flow of cooling air in triangular wavy fin channels

Ming-long Ni; Ya-ping Chen; Cong Dong; Jia-feng Wu

doi:10.1007/s11771-014-2238-3

Journal of Central South University ›› 2014, Vol. 21 ›› Issue (7) : 2759 -2765. DOI: 10.1007/s11771-014-2238-3

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Numerical simulation of heat transfer and flow of cooling air in triangular wavy fin channels

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Abstract

Numerical computation models of air cooling heat transfer and flow behaviors in triangular wavy fin channels (TWFC) were established with structural parameters of fins considered. The air side properties of heat transfer coefficient and pressure drop are displayed with variable structural parameters of fins and inlet velocities of cooling air. Within the range of simulation, TWFC has the best comprehensive performance when inlet velocity v_in=4−10 m/s. Compared with those of straight fins, the simulation results reveal that the triangular wavy fin channels are of higher heat transfer performances especially with the fin structural parameters of fin-height F_h=9.0 mm, fin-pitch F_p=2.5−3.0 mm, fin-wavelength λ=14.0–17.5 mm and fin-wave-amplitude A=1.0–1.2 mm. The correlations of both heat transfer factor and friction factor are presented, and the deviations from the experimental measurements are within 20%.

Keywords

triangular wavy fins / heat transfer coefficients / pressure drops / plate-fin heat exchangers / air cooling

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Ming-long Ni, Ya-ping Chen, Cong Dong, Jia-feng Wu. Numerical simulation of heat transfer and flow of cooling air in triangular wavy fin channels. Journal of Central South University, 2014, 21(7): 2759-2765 DOI:10.1007/s11771-014-2238-3

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References

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[1]	ShiM-z, WangZ-zhengHeat exchanger principle and design [M], 2009, Nanjing, Southeast University Press: 139-159

[2]	FabbriG. Heat transfer optimization in corrugated wall channels [J]. International Journal of Heat and Mass Transfer, 2000, 43(23): 4299-4310

[3]	LiL, DuX-z, YangL-j, XuY, YangY-ping. Numerical simulation on flow and heat transfer of fin structure in air-cooled heat exchanger [J]. Applied Thermal Engineering, 2013, 59(1/2): 77-86

[4]	RushT A, NewellT A, JacobiA M. An experimental study of flow and heat transfer in sinusoidal wavy passages [J]. International Journal of Heat and Mass Transfer, 1999, 42(9): 1541-1553

[5]	DongJ-q, ChenJ-p, ZhangW-f, HuJ-wei. Experimental and numerical investigation of thermal-hydraulic performance in wavy fin-and-flat tube heat exchangers [J]. Applied Thermal Engineering, 2010, 30(11/12): 1377-1386

[6]	AhmedM A, ShuaibN H, YusoffM Z. Numerical investigations on the heat transfer enhancement in a wavy channel using nanofluid [J]. International Journal of Heat and Mass Transfer, 2012, 55(21/22): 5891-5898

[7]	SuiY, TeoC J, LeeP S. Direct numerical simulation of fluid flow and heat transfer in periodic wavy channels with rectangular cross-sections [J]. International Journal of Heat and Mass Transfer, 2012, 55(1/2/3): 73-88

[8]	ChangS W, LeesA W, LiouT M, HongG F. Heat transfer of a radially rotating furrowed channel with two opposite skewed sinusoidal wavy walls [J]. International Journal of Thermal Sciences, 2010, 49(5): 769-785

[9]	PhamM V, PlourdeF, DoanS K. Turbulent heat and mass transfer in sinusoidal wavy channels [J]. International Journal of Heat and Fluid Flow, 2008, 29(5): 1240-1257

[10]	Ramgadia AbhishekG, Saha ArunK. Fully developed flow and heat transfer characteristics in a wavy passage: Effect of amplitude of waviness and Reynolds number [J]. International Journal of Heat and Mass Transfer, 2012, 55(9/10): 2494-2509

[11]	Sheik IsmailL, RanganayakuluC, Shah RameshK. Numerical study of flow patterns of compact plate-fin heat exchangers and generation of design data for offset and wavy fins [J]. International Journal of Heat and Mass Transfer, 2009, 52(17/18): 3972-3983

[12]	SuiY, TeoC J, LeeP S, ChewY T, ShuC. Fluid flow and heat transfer in wavy microchannels [J]. International Journal of Heat and Mass Transfer, 2010, 53(13/14): 2760-2772

[13]	DongJ-q, SuL, ChenQ, XuW-wu. Experimental study on thermal-hydraulic performance of a wavy fin-and-flat tube aluminum heat exchanger [J]. Applied Thermal Engineering, 2013, 51(1/2): 32-39

[14]	WangF-junAnalysis of computational fluid dynamics-theory and application of CFD [M], 2004, Beijing, Tsinghua University Press: 124-125

[15]	TaoW-quanNumerical heat transfer [M], 20012nd ed.Xi’an, Xi’an Jiaotong University Press: 1-5

[16]	NiM-long. Study on heat transfer and flow properties of plate-fin heat exchanger with triangular wavy fins [D]. Nanjing: School of Energy and Environment, Southeast University, 201230-36